Schutte B C, Bjork B C, Coppage K B, Malik M I, Gregory S G, Scott D J, Brentzell L M, Watanabe Y, Dixon M J, Murray J C
Department of Pediatrics, University of Iowa, Iowa City, Iowa 52242 USA.
Genome Res. 2000 Jan;10(1):81-94.
Van der Woude syndrome (VWS) is a common form of syndromic cleft lip and palate and accounts for approximately 2% of all cleft lip and palate cases. Distinguishing characteristics include cleft lip with or without cleft palate, isolated cleft palate, bilateral lip pits, hypodontia, normal intelligence, and an autosomal-dominant mode of transmission with a high degree of penetrance. Previously, the VWS locus was mapped to a 1.6-cM region in 1q32-q41 between D1S491 and D1S205, and a 4.4-Mb contig of YAC clones of this region was constructed. In the current investigation, gene-based and anonymous STSs were developed from the existing physical map and were then used to construct a contig of sequence-ready bacterial clones across the entire VWS critical region. All STSs and BAC clones were shared with the Sanger Centre, which developed a contig of PAC clones over the same region. A subset of 11 clones from both contigs was selected for high-throughput sequence analysis across the approximately 1.1-Mb region; all but two of these clones have been sequenced completely. Over 900 kb of genomic sequence, including the 350-kb VWS critical region, were analyzed and revealed novel polymorphisms, including an 8-kb deletion/insertion, and revealed 4 known genes, 11 novel genes, 9 putative genes, and 3 psuedogenes. The positional candidates LAMB3, G0S2, HIRF6, and HSD11 were excluded as the VWS gene by mutation analysis. A preliminary gene map for the VWS critical region is as follows: [see text] 41-TEL. The data provided here will help lead to the identification of the VWS gene, and this study provides a model for how laboratories that have a regional interest in the human genome can contribute to the sequencing efforts of the entire human genome.
范德伍迪综合征(VWS)是综合征性唇腭裂的一种常见类型,约占所有唇腭裂病例的2%。其特征包括唇裂伴或不伴腭裂、孤立性腭裂、双侧唇凹、牙发育不全、智力正常以及常染色体显性遗传模式且外显率高。此前,VWS基因座被定位到1q32 - q41中D1S491和D1S205之间1.6厘摩的区域,并构建了该区域的酵母人工染色体(YAC)克隆的4.4兆碱基重叠群。在当前研究中,基于基因的序列标签位点(STS)和匿名STS从现有的物理图谱中开发出来,然后用于构建跨越整个VWS关键区域的序列就绪细菌克隆重叠群。所有STS和细菌人工染色体(BAC)克隆都与桑格中心共享,该中心在同一区域构建了噬菌体P1人工染色体(PAC)克隆重叠群。从两个重叠群中挑选了11个克隆的子集,对大约1.1兆碱基区域进行高通量序列分析;除了其中两个克隆外,其他克隆均已完全测序。分析了超过900千碱基的基因组序列,包括350千碱基的VWS关键区域,发现了新的多态性,包括一个8千碱基的缺失/插入,并发现了4个已知基因、11个新基因、9个推定基因和3个假基因。通过突变分析排除了定位候选基因LAMB3、G0S2、HIRF6和HSD11作为VWS基因。VWS关键区域的初步基因图谱如下:[见正文] 41 - 端粒。此处提供的数据将有助于鉴定VWS基因,并且本研究为关注人类基因组特定区域的实验室如何为整个人类基因组测序工作做出贡献提供了一个范例。